Flanged conduit and insulation for electric wires and method of use

ABSTRACT

An improved conduit has a cross sectional profile which generally provides an elongate support structure having at least one anchoring structure extending from the support structure to engage any groove on a base board structure to enable the conduit to be &#34;snapped&#34; into a place of consistent support. Generally, the conduit will be pushed down directly against the support structure to enable the support structure to either become anchored or to flex against and secure the engagement of the anchoring structure. A variety of embodiments take advantage of the widest variety of corner configurations in order to provide the widest applicability of the conduit.

FIELD OF THE INVENTION

The present invention relates to improvements in structures and methodsfor supporting and anchoring conductive wires near walls, baseboards,floors and moldings, and which facilitates removal of the wires with andwithout the anchoring structure.

BACKGROUND OF THE INVENTION

In U.S. Pat. No. 5,514,834 to Harry I. Zimmerman, a number of mechanicalorientations of flanged conduit was disclosed which were advantageous inwiring and re-wiring applications. The structures disclosed enabled awide variety of structures to be used which would be embraced andsupported by gaps between base board and floor, and between carpetingand base boards or vertical walls.

In each of the configurations, the main theme was engagement by the useof a length of material. The length of material was frictionally engagedwithin a space between base board and floor or between carpet and abaseboard or vertical wall. The cross sectional profile of theengagement member represented either a linear extension to be pushedinto an existing gap, or a modified linear member such as having anundulating extent or ribs in order to enable the linear member to besomewhat compressed. Compression occurred in the linear materialdirectly through its plastic construction, in the undulating member by astraightening of the extent of the undulations while the member wasunder compression, or in the barbed member by bending displacement ofthe barbs.

In some of the orientations the amount of work necessary to obtain asecure engagement was dependent upon the type of gap which was present.In other cases, where the gap being engaged was uneven, either by unevenworkmanship at the wall or base board or by an uneven floor, the conduitwould be held securely in some places and not held securely in others.

A useful improvement to the conduit would be structure enabling theconduit to find an even level of engagement with the structuresavailable. This would provide a more consistent support for the conduitdespite inconsistencies in the support structures, present such as wall,baseboard, floor and carpet. The structure would not only provide aconsistency in engagement and support, but would also provideconsistency to the installer by providing feedback as to whether theinstallation motions were sufficient to result in an even installation.

In some instances, especially where the conduit and holding portion areintegrally formed, the removal of the structure can damage it. Where theanchoring structure continues to be held by the wall, stripping or baseboard, the wire and insulation can be damaged. What is needed is aconduit in which the anchoring structure can be detached where it isheld too tightly by, or has become integrated into the holdingstructure.

The needed structure should be held in place by using natural structureson the base board and which provide a "snap" or "click" to the installerduring the installation. The degree to which the conduit is held inplace should not be unduly severe and should not prevent the conduitfrom being easily removed. The needed conduit should promote safety,including the safety of having the wires together, as well as the safetyfrom making certain that the conduit is held securely in place.

SUMMARY OF THE INVENTION

An improved conduit has a cross sectional profile which generallyprovides an elongate support structure having at least one anchoringstructure extending from the support structure to engage any groove on abase board structure to enable the conduit to be "snapped" into a placeof consistent support, to provide an extra measure of safety. Generally,the conduit will be pushed down directly against the support structureto enable the support structure to either become anchored or to flexagainst and secure the engagement of the anchoring structure. A varietyof embodiments take advantage of the widest variety of cornerconfigurations in order to provide the widest applicability of theconduit. In one embodiment, the anchoring structure has a thinnedconnection to the main conduit to facilitate controlled detachment ofthe anchoring structure in instances where the anchoring structure isbound too tightly or where the anchoring structure becomes stuck to theanchoring structure.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention, its configuration, construction, and operation will bebest further described in the following detailed description, taken inconjunction with the accompanying drawings in which:

FIG. 1 is a perspective view of a first embodiment of the conduit havinga triangular wire support boundary, and a locking rib positioned fromthe flat side of a vertical support;

FIG. 2 is an end view of the embodiment of FIG. 1 and gives a betterview of the relationship of the wire support boundary and the lockingrib;

FIG. 3 is a sectional view of a floor, wall, and carpet and illustratinghow the conduit of FIGS. 1 and 2 would be implaced in a typicalapplication having a base board and wall structure;

FIG. 4 is a perspective view of the conduit in a typical applicationextending through a tight radius to accommodate a corner;

FIG. 5 is a variation of FIG. 2 and having a pair of anchoringstructures extending from a straight flange, one anchoring structurespaced above the other;

FIG. 6 is a variation of FIGS. 1 and 2 where the a single anchoringstructure has a right triangular shape when viewed in cross section;

FIG. 7 is a variation on FIG. 6 and having a pair of spaced apartanchoring structures of right triangular shape;

FIG. 8 is a variation on FIGS. 1 and 2 and having a curved elongatestructure curving underneath the conduit portion and having a singleanchoring structure;

FIG. 9 is a variation on FIG. 8 and having a pair of anchoringstructures and a curved elongate structure curving underneath theconduit portion;

FIG. 10 is a variation on FIG. 9 and having a rectangular anchoringstructures and an outward curving elongate structure;

FIG. 11 is a variation on FIG. 10 and having a pair of rectangularanchoring structures and an outward curving elongate structure;

FIG. 12 illustrates a conduit portion having a dual flange portionhaving an inwardly curved portion and a straight portion having a singleanchoring structure;

FIG. 13 illustrates a conduit portion having a curved elongate structurecurving underneath the conduit portion and a single triangular shapedanchoring structure;

FIG. 14 is a variation on FIG. 9 and having a pair of triangular shapedanchoring structures and a curved elongate structure curving underneaththe conduit portion;

FIG. 15 is a variation on FIG. 10 and having a triangular anchoringstructure and an outward curving elongate structure;

FIG. 16 is a variation on FIG. 11 and having a pair of triangularanchoring structures and an outward curving elongate structure;

FIG. 17 illustrates a conduit portion having a dual flange portionhaving an inwardly curved portion and a straight portion having a singletriangular anchoring structure;

FIG. 18 illustrates a straight, but angled flange portion angledunderneath the conduit portion and having a single anchoring structure;

FIG. 19 illustrates a conduit having an angled elongate structure angledunderneath the conduit portion and having a pair of rectangularanchoring structures;

FIG. 20 illustrates a conduit having a rectangular anchoring structuresand an outward angled elongate structure;

FIG. 21 illustrates a conduit having a pair of spaced apart rectangularanchoring structures and an outward angled elongate structure;

FIG. 22 illustrates a conduit having a dual flange portion having aninwardly angled portion and a straight portion having a pair of spacedapart anchoring structures;

FIG. 23 illustrates a solid wire encasement conduit portion having acurved elongate structure curving underneath the conduit portion and asingle rectangular shaped anchoring structure;

FIG. 24 illustrates a solid wire encasement conduit portion having acurved elongate structure curving underneath the conduit portion and apair of spaced apart rectangular shaped anchoring structure;

FIG. 25 illustrates a solid wire encasement conduit portion having acurved elongate structure curving away from underneath the conduitportion and a single rectangular shaped anchoring structure;

FIG. 26 illustrates a solid wire encasement conduit portion having acurved elongate structure curving away from underneath the conduitportion and a pair of spaced apart rectangular shaped anchoringstructures;

FIG. 27 illustrates a solid wire encasement conduit portion having acurved elongate structure curving underneath the conduit portion and asingle rectangular shaped anchoring structure;

FIG. 28 is an open triangular conduit having a straight flange portionwith a single rectangular shaped anchoring structure;

FIG. 29 is an open triangular conduit having a straight flange portionwith a pair of spaced apart rectangular shaped anchoring structures;

FIG. 30 is an enclosed circular conduit having a straight flange portionextending tangentially away from the circular conduit and having asingle rectangular shaped anchoring structure;

FIG. 31 is an enclosed circular conduit having a straight flange portionextending tangentially away from the circular conduit and having a pairof spaced apart rectangular shaped anchoring structures;

FIG. 32 is a sectional view of a floor, wall, and carpet andillustrating how the conduit of FIG. 30 would be implaced in a typicalapplication having a base board and wall structure;

FIG. 33 is an irregularly shaped conductor structure having a solidconduit portion carrying a series of spaced apart conductors, and havinga single straight flange with a single rectangular anchoring structure;

FIG. 34 is an rectangular cross shaped conductor structure having asolid conduit portion carrying a series of spaced apart conductors, andhaving a single straight flange with a single rectangular anchoringstructure;

FIG. 35 is a conduit having a triangularly shaped conduit portion and aflange which extends away from a corner of the triangularly shapedconduit at a 45° angle from the legs and perpendicular to the hypotenuseof the triangle and having a single straight flange with a thinned areaof material due to a pair of notches;

FIG. 36 is a conduit having an arc shaped conduit portion and a flangewhich extends away from a corner of the triangularly shaped conduit at a45° angle from the legs and perpendicular to the arc shaped side of theconduit portion and having a single straight flange with a thinned areaof material due to a pair of notches;

FIG. 37 is a sectional view of an irregularly shaped conduit having asolid section for carrying a pair of conductors, especially for powerusage and having an angled anchoring structure and a slightly curvedflange;

FIG. 38 is a sectional view of an irregularly shaped conduit having asolid section for carrying a pair of conductors, especially for powerusage and having an angled anchoring structure and a slightly curvedflange connected by a thinned area resulting from the presence of asingle notch;

FIG. 39 is a perspective view of the irregularly shaped conduit of FIG.38 and illustrating removal of material such that the flange portionextends from the conduit intermittently along the length of the conduit;

FIG. 40 is a rear view of the conduit shown in FIG. 39 to betterillustrate the intermittent nature of the flange portions along thelength of the conduit;

FIG. 41 is a sectional view of a floor, wall, and carpet andillustrating how the conduit of FIGS. 38-40 would be implaced in atypical application having a base board and wall structure;

FIG. 42 is a sectional view of a conduit member similar to that shown inFIG. 2, with a straight connection between the flange portion and theconduit portion.

FIG. 43 a variation of FIG. 5 and having a pair of anchoring structuresextending from a straight flange, one anchoring structure spaced abovethe other, with a straight connection between the flange portion and theconduit portion;

FIG. 44 is a variation of FIG. 6 where the a single anchoring structurehas a right triangular shape when viewed in cross section, with astraight connection between the flange portion and the conduit portion;

FIG. 45 is a variation on FIG. 7 and having a pair of spaced apartanchoring structures of right triangular shape, with a straightconnection between the flange portion and the conduit portion;

FIG. 46 is a variation on FIG. 8 and having a curved elongate structurecurving underneath the conduit portion and having a single anchoringstructure, with a straight connection between the flange portion and theconduit portion;

FIG. 47 is a variation on FIG. 9 and having a pair of anchoringstructures and a curved elongate structure curving underneath theconduit portion, with a straight connection between the flange portionand the conduit portion;

FIG. 48 is a variation on FIG. 10 and having a rectangular anchoringstructures and an outward curving elongate structure, with a straightconnection between the flange portion and the conduit portion;

FIG. 49 is a variation on FIG. 11 and having a pair of rectangularanchoring structures and an outward curving elongate structure, with astraight connection between the flange portion and the conduit portion;

FIG. 50 illustrates a conduit portion having a dual flange portion, witha straight connection between the flange portion and the conduitportion, and having an inwardly curved portion and a straight portion;

FIG. 51 illustrates a conduit portion having a curved elongate flangestructure, with a straight connection between the flange portion and theconduit portion and a single triangular shaped anchoring structure;

FIG. 52 illustrates a conduit portion having a curved elongate flangestructure, with a straight connection between the flange portion and theconduit portion and a pair of triangular shaped anchoring structures;

FIG. 53 illustrates a conduit portion having a curved elongate flangestructure, with a straight connection between the flange portion and theconduit portion and a single triangular shaped anchoring structure;

FIG. 54 illustrates a conduit portion having a curved elongate flangestructure, with a straight connection between the flange portion and theconduit portion and a pair of triangular shaped anchoring structures;

FIG. 55 illustrates a conduit portion having a curved elongate flangestructure, with a straight connection between a split flange portionhaving an inwardly curved portion and a straight portion having a singletriangular shaped anchoring structure;

FIG. 56 illustrates a conduit portion having an angled elongate flangestructure, with a straight connection between the flange portion and theconduit portion and a single rectangular shaped anchoring structure;

FIG. 57 illustrates a conduit portion having an angled elongate flangestructure, with a straight connection between the flange portion and theconduit portion and a pair of rectangular shaped anchoring structures;

FIG. 58 illustrates a conduit portion having an angled elongate flangestructure, with a straight connection between the flange portion and theconduit portion and a single rectangular shaped anchoring structure;

FIG. 59 illustrates a conduit portion having an angled elongate flangestructure, with a straight connection between the flange portion and theconduit portion and a pair of spaced apart rectangular shaped anchoringstructures;

FIG. 60 illustrates a conduit portion having a split flange structure,with a straight connection between the flange portion and the conduitportion, with a straight connection between a split flange portionhaving an inwardly angled portion and a straight portion having a pairof rectangular shaped anchoring structures;

FIGS. 61 illustrates a conduit having a solid fill conduit portion andan inwardly curving flange portion, with a straight connection between asplit flange portion having an inwardly angled portion and a straightportion and having a single rectangular anchoring structure;

FIG. 62 illustrates a conduit having a solid fill conduit portion and aninwardly curving flange portion, with a straight connection between asplit flange portion having an inwardly angled portion and a straightportion and having a pair of rectangular anchoring structures;

FIG. 63 illustrates a conduit having a solid fill conduit portion and anoutwardly curving flange portion, with a straight connection between asplit flange portion having an inwardly angled portion and a straightportion and having a single rectangular anchoring structure;

FIG. 64 illustrates a conduit having a solid fill conduit portion and anoutwardly curving flange portion, with a straight connection between asplit flange portion having an inwardly angled portion and a straightportion and having a pair of spaced apart rectangular anchoringstructures;

FIG. 65 illustrates a conduit having a hollow arc shaped conduit portionand having a split flange structure including an inwardly curvingportion, with a straight connection between a split flange portionhaving an inwardly angled portion and a straight portion and a straightportion and having a single rectangular anchoring structure;

FIG. 66 illustrates an open triangular conduit having a flange with astraight connection to the conduit portion and having a rectangularanchoring structure;

FIG. 67 illustrates an open triangular conduit having a flange with astraight connection to the conduit portion and having a pair ofrectangular anchoring structures;

FIG. 68 is an enclosed circular conduit having a straight flange portionwith a straight connection to the conduit portion and extendingtangentially away from the circular conduit and having a singlerectangular shaped anchoring structure;

FIG. 69 is an enclosed circular conduit having a straight flange portionwith a straight connection to the conduit portion and extendingtangentially away from the circular conduit and having a pair ofrectangular shaped anchoring structure;

FIG. 70 is an irregularly shaped conductor structure having a solidconduit portion carrying a series of spaced apart conductors, and havinga single straight flange, with a straight connection to the conduitportion, and with a single rectangular anchoring structure;

FIG. 71 is an rectangular cross shaped conductor structure having asolid conduit portion carrying a series of spaced apart conductors, andhaving a single straight flange with a straight connection to theconduit portion and with a single rectangular anchoring structure;

FIG. 72 is a conduit having a triangularly shaped conduit portion and aflange with a straight connection to the conduit portion and whichextends away from a corner of the triangularly shaped conduit at a 45°angle from the legs and perpendicular to the hypotenuse of the triangleand having a single straight flange, the reversibility to allow for thewire to be applied to in both the left and right handed application;

FIG. 73 is a conduit having an arc shaped conduit portion and a flangewith a straight connection to the conduit portion and which extends awayfrom a corner of the triangularly shaped conduit at a 45° angle from thelegs and perpendicular to the arc shaped side of the conduit portion andhaving a single straight flange;

FIG. 74 is a conduit having a hollow inside area for carrying conductorsand which has a reduced area portion defined by a pair of opposingnotches, and an extended flange portion especially useful for placementunder carpeting;

FIG. 75 is a conduit having a hollow inside area for carrying conductorsand which has a reduced area portion defined by a pair of opposingnotches, and an extended flange portion with a straight connection tothe conduit portion and especially useful for placement under carpeting;

FIG. 76 is a sectional view of a floor, wall, and rug and illustratinghow the conduit of FIGS. 74 & 75 would be implaced in a typicalapplication having a base board and wall structure;

FIG. 77 is a sectional view of a floor, wall, and carpet andillustrating how the conduit of FIG. 8 would be implaced in a typicalapplication having a base board and carpet structure;

FIG. 78 illustrates the use of the conduit structure shown in FIG. 36with a pair of conductors, and with the flange extending away from thewall, and used as power transmission wiring and extending from a wallplug, then turning at the bottom and engaging a space within abaseboard;

FIG. 79 illustrates a sectional view taken along line 79--79 of FIG. 78and illustrating the twisting motion as the flange is brought around toengage the base board;

FIG. 80 illustrates the use of the conduit structure shown in FIG. 36with a pair of conductors, and with the flange extending toward the walland partially removed during the vertical extent of the conduit, andused as power transmission wiring and extending from a wall plug, thenturning at the bottom and engaging a space within a baseboard;

FIG. 81 illustrates a sectional view taken along line 81--81 of FIG. 80and illustrating the turning motion as the continues near the base boardand engages the space between the base board and floor.

FIG. 82 illustrates the conduit of FIG. 35 in transition from horizontalengagement between a floor and base board to vertical placement betweenwall and molding and illustrating the advantage of removal of the flangewhen the conduit is not needed;

FIG. 83 is a view taken along line 83--83 of FIG. 82 and illustrating aslight twist to enable close conforming seating in the corner betweenwall and molding;

FIG. 84 is a variation showing a triangular rib located on both sides ofthe flange, even where the flange curves or extends underneath theconduit portion;

FIG. 85 illustrates a conduit design having a rectangular rib on eitherside of a flange extending at a 45° angle to form a structure whichfacilitates true ambidextrous or right and left hand orientationinstallation; and

FIG. 86 illustrates a solid conduit having a flange with a pair ofrectangular ribs on both sides of the flange.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring to FIG. 1, a perspective view of a conductor structure 11illustrates a conduit portion 13 and a flange portion 15. Within theconduit portion 13 are a series of insulated wires 17, within a conduitspace 19. This is a schematic showing, and in practice, the conduitspace 19 may be eliminated and filled in with insulative material andthe wires then provided within the insulation.

Immediately below the conduit portion 13, the flange portion 15 isconnected through a thinned area of material shown as formed with a pairof opposing notches 21 and 23, notch 21 facing the rear side of theconductor structure 11 and notch 23 facing the front side of theconductor structure 11. The notches 21 and 23 are shown as being roundnotches, but any shape will suffice, the main idea being a reduced crosssectional area of material per unit length separating the flange portion15 from the conduit portion 13.

Immediately below the notch 23, the flange portion 15 extends straightdown at the front side. Immediately below the notch 21, the flangeportion 15 has a rearwardly extending rib 25. The rib 25 is shown as arectangular shape and extending from the generally vertical extent ofthe flange, but the rib 25 can be differently shaped and can extend atan upwardly or downwardly angle from the flange portion 15.

In addition, a series of vertically extending thinned areas or notches27 can be seen located periodically along the length of the flangeportion 15. In operation, the flange portion 15 is inserted into anyavailable crack or thin space near the base of a wall. The flangeportion 15 is flexible and easily fittable into a flange space. Flangespaces include vertical spaces between molding and wall, between carpettacking and molding or wall, as well as others. Flange spaces alsoinclude horizontal spaces between floor and molding, tacking, walls andwall support structures. The flange portion 15 can fit equally well intoeither a vertical, horizontal, or angled flange space.

Referring to FIG. 2, an end view of the conductor structure 11 gives abetter view of the structure and illustrates directly the reduced crosssectional area 29 existing at the mid point of the two notches 21 and23. Instead of two equally opposing notches 21 and 23, a larger notchmay be used on only one side of the conductor structure 11 and whichcomes sufficiently near to the other side that a reduced area crosssection 29 is produced.

The operation of the conductor structure 11 is as follows. Where thewires or insulated wires 17 are already present within the conduit space19, the conductor structure 11, with the flange portion 15 extendingdown, is inserted into a flange space. The rib 25, particularly aslocated below the conduit portion 13 can help the conductor structure 11find and lock into a stabilizing structure. For example, where theconduit space is horizontal, the flange portion 15 can fit just underthe entrance to a horizontal conduit space to "lock" the flange portion15 into place. The degree of lock will depend upon a variety of factors,including width of the conduit space, availability of other structures,and the combined shape and spacing of the rib 25 and the flange portion15.

Where a vertical conduit space is available, there may be otherstructures upon which the rib 25 can interfit. Further, rib 25represents useful structure which can perform several functions. First,where the conduit space is wider than would form a snug fit with theflange portion, the combination of widths of the flange portion 15 andrib 25, particularly where these two structures may be bent toward eachother, helps to form an anchoring structure which can accommodate somevariability in conduit space. Second, where a wide anchoring space isavailable, the flange portion 15 can be compressed to form a springstructure with single or multiple undulations and which can provideupward pressure against the rib 25 as it engages some other structure.Where this action is present, installation will occur with a "clicking"or "snap" feedback to the installer, indicating a successful placement.

Third, note that the rib 25 is somewhat below the conduit portion 13.This is important in installations with carpeting where the conductorstructure 11 needs to be sufficiently high and above the carpeting orother obstruction level. The rib 25, as will be seen, will exist assingle or multiple structures and will lie along the flange portion 15.In FIGS. 1 and 2 it is shown at the top of the flange portion 15.Fourth, the reduced area cross section 29 enables the removal of theconductor structure 11 from a conduit space to which the flange portion15 is "stuck" or attached. In this case, the conductor structure 11 isseparated from the flange portion 15 by controlled tearing of thereduced area cross section 29. Where only a short portion of the flangeportion 15 is "stuck", the adjacent sections of flange portion 15 willnot continue to be torn away from the conduit portion 13 due to thepresence of vertical notches 27. In addition, the flange portion 15 canbe selectively torn away when the flange portion 15 is not needed. Thevertical notches 27 can provide a "through" space, actually dividingflange portion 15 into segments, or it can be an incomplete notch,creating a reduced area cross section from which adjacent sections ofthe flange portion 15 can be "torn" away. This prevents a stuck sectionof flange portion 15 from harmfully grabbing the overall conductorstructure 11 and perhaps tearing the main volume of insulative materialwhich could expose the wires.

Referring to FIG. 3, a view is shown where the rib 25 engages a notch 31along the bottom of base molding 33 attached to a wall 35. To the leftof the base molding 33 is a length of carpet tacking 37 which supportscarpeting 39. A length of carpet padding 41 lies to the left of thecarpet tacking 37, and both lie over the floor 43. FIG. 3 is an examplein which the notch 31 engages the rib 25 and in which the flange portion15 is springlingly bent to put some pressure against the notch 31--rib25 engagement.

Referring to FIG. 4, an example of the conductor structure 11 in acorner environment is illustrated with the carpet 39 removed in order toillustrate how easily the structure of the invention can corneraccommodate and extend through a corner turn. The locking mechanismprovided by the rib 25 nearly doubles its holding ability at a corner,by virtue of additional outward forces opposing the bending.

Referring to FIG. 5, a conductor structure 51 is shown having a flangeportion 53 having a pair of ribs 55. Again, the notches 21 and 23 arepresent creating the reduced area cross section 29, although a reducedcross sectional connection area is one variation and as will be seenthis is a separate embodiment from one not having such reduced crosssectional area. Here the ribs 55 are parallel and spaced apart. Theoperational idea in FIG. 5 is two. First, the operative rib 55 may belocated much lower on the flange portion 53. Second, two or more ribs 55may be used. In some sections of the wall 35, a notch 31 may be locatedlower down or higher up, especially with respect to the floor 43. Wherethe notch 31 is higher, it will be easily engageable by the upper of thetwo ribs 55 shown. Where the notch 31 is lower, the lower of the tworibs 55 may be more advantageous for engagement. Three or more ribs maybe used.

Referring to FIG. 6, a conductor structure 61 is shown having a flangeportion 63 having a single triangular shaped rib 65. The rib 65 ispositioned to have a horizontal top profile portion and an angled lowerportion. This forms a small continuous ratchet which makes the conductorstructure 61 easier is to install and slightly more difficult tode-install, as is the case where any one-sided locking mechanism isused. Again, the notches 21 and 23 are present creating the reduced areacross section 29, although a reduced cross sectional connection area isbut one variation.

Referring to FIG. 7, a conductor structure 71 is shown having a flangeportion 53 having a pair of triangular shaped ribs 65. Again, thenotches 21 and 23 are present creating the reduced area cross section29, although a reduced cross sectional connection area is but onevariation. Here the ribs 55 are parallel, of even extent and angle andare spaced apart. They may be of different extent, angle and locatedclosely together or spaced apart.

Referring to FIG. 8, a conductor structure 81 is shown having a curvedflange portion 83, when view from the transverse direction and curvingunderneath the conduit portion 13. The curved flange portion 83 has asingle rectangular shaped rib 85 which extends generally perpendicularlywith respect to the section of the curved flange portion 83 from whichit extends. The formed curvature of the curved flange portion 83 assistsin helping an installer to have the flange portion 83 consistently bendin one direction. Again, the opposing notches 21 and 23 are presentcreating the reduced area cross section 29 previously seen.

Referring to FIG. 9, a conductor structure 91 is shown having a curvedflange portion 93, when view from the transverse direction and curvingunderneath the conduit portion 13. The curved flange portion 93 has apair of rectangular shaped ribs 95 which extends generallyperpendicularly with respect to the section of the curved flange portion93 from which it extends. The formed curvature of the curved flangeportion 93 assists in helping an installer to have the flange portion 93consistently bend in one direction, underneath the conduit portion 13.Again, the opposing notches 21 and 23 are present creating the reducedarea cross section 29 previously seen.

Referring to FIG. 10, a conductor structure 101 is shown having a curvedflange portion 103, when view from the transverse direction and curvingtoward the back side of and away from a direction underneath the conduitportion 13. The curved flange portion 103 has a single rectangularshaped rib 105 which extends generally perpendicularly with respect tothe section of the curved flange portion 103 from which it extends. Theformed curvature of the curved flange portion 103 assists in helping aninstaller to have the flange portion 103 consistently bend in onedirection, away from the area underneath the conduit portion 13. Again,the opposing notches 21 and 23 are present creating the reduced areacross section 29 previously seen.

Referring to FIG. 11, a conductor structure 111 is shown having a curvedflange portion 113, when view from the transverse direction and curvingtoward the back side of and away from a direction underneath the conduitportion 13. The curved flange portion 113 has a pair of rectangularshaped ribs 115 which extend generally perpendicularly with respect tothe section of the curved flange portion 113 from which it extends. Theformed curvature of the curved flange portion 113 assists in helping aninstaller to have the flange portion 113 consistently bend in onedirection, away from the area underneath the conduit portion 13. Again,the opposing notches 21 and 23 are present creating the reduced areacross section 29 previously seen.

Referring to FIG. 12, a conductor structure 121 is shown having a splittailed flange portion including a vertical tail portion 123 and a curvedtail portion 125, when view from the transverse direction. The curvedtail portion 125 curves toward the front side of and in a directionunderneath the conduit portion 13. The vertical tail portion 123 has asingle rectangular shaped rib 127 which extends generallyperpendicularly with respect to the section of the vertical tail portion123 from which it extends. The split nature of the flange, including thecurved tail portion 125 and vertical tail portion 123 assists in helpingan installer to accommodate relatively large flange spaces. The opposingnotches 21 and 23 are present creating the reduced area cross section 29previously seen.

Referring to FIG. 13, a conductor structure 131 is shown having a curvedflange portion 133, when view from the transverse direction and curvingunderneath the conduit portion 13. The curved flange portion 133 has asingle triangular shaped rib 135 which extends generally perpendicularlywith respect to the section of the curved flange portion 133 from whichit extends. The formed curvature of the curved flange portion 133assists in helping an installer to have the flange portion 133consistently bend in one direction. Again, the opposing notches 21 and23 are present creating the reduced area cross section 29 previouslyseen.

Referring to FIG. 14, a conductor structure 13 is shown having a curvedflange portion 143, when view from the transverse direction and curvingunderneath the conduit portion 13. The curved flange portion 143 has apair of triangular shaped ribs 145 which extends generallyperpendicularly with respect to the section of the curved flange portion143 from which it extends. The formed curvature of the curved flangeportion 143 assists in helping an installer to have the flange portion143 consistently bend in one direction, underneath the conduit portion13.

Referring to FIG. 15, a conductor structure 151 is shown having a curvedflange portion 153, when view from the transverse direction and curvingtoward the back side of and away from a direction underneath the conduitportion 13. The curved flange portion 153 has a single triangular shapedrib 155 which extends generally perpendicularly with respect to thesection of the curved flange portion 153 from which it extends.

Referring to FIG. 16, a conductor structure 161 is shown having a curvedflange portion 163, when view from the transverse direction and curvingtoward the back side of and away from a direction underneath the conduitportion 13. The curved flange portion 163 has a pair of triangularshaped ribs 165 which extend generally perpendicularly with respect tothe section of the curved flange portion 113 from which it extends.

Referring to FIG. 17, a conductor structure 171 is shown having a splittailed flange portion including a vertical tail portion 173 and a curvedtail portion 175, when view from the transverse direction. The curvedtail portion 175 curves toward the front side of and in a directionunderneath the conduit portion 13. The vertical tail portion 173 has asingle triangular shaped rib 177 which extends generally perpendicularlywith respect to the section of the vertical tail portion 173 from whichit extends. Again, the dual tail portions 173, 175 assist in helping aninstaller to accommodate relatively large flange spaces.

Referring to FIG. 18, a further embodiment is shown as a variation onthe embodiments earlier seen and in which the flange member is generallystraight, but angled with respect to its extension away fro the conduitportion 13. Where the flange is sufficiently flexible, the angledorientation will help produce consistency in the installation.

A conductor structure 181 is shown having a single, angled flangeportion 183 angled to be located underneath the conduit portion 13. Theflange portion 183 has a single rectangular rib 185 which may be locatedat any position along the length of the flange portion 183. Referring toFIG. 19, a further embodiment is shown as a conductor structure 191 isshown having a single, angled flange portion 193 angled to be locatedunderneath the conduit portion 13. The flange portion 193 has a pair ofrectangular ribs 195 which may be located at any position along thelength of the flange portion 193. Referring to FIG. 20, a conductorstructure 201 is shown having a single, angled flange portion 203 angledin a direction away from the area underneath the conduit portion 13. Theflange portion 203 has a single rectangular rib 205 which may be locatedat any position along the length of the flange portion 203.

Referring to FIG. 21, a conductor structure 211 is shown having asingle, angled flange portion 213 angled in a direction away from thearea underneath the conduit portion 13. The flange portion 213 has apair of rectangular shaped ribs 215 which may be located at any positionalong the length of the flange portion 213.

Referring to FIG. 22, a conductor structure 221 is shown having a splitangled flange portion including a vertical straight tail portion 223 andan angled straight tail portion 225, when viewed from the transversedirection. The straight tail portion 225 is angled toward the front sideof and in a direction underneath the conduit portion 13. The straighttail portion 223 has a pair of rectangular shaped ribs 227 which extendsgenerally perpendicularly with respect to straight tail portion 223.

Referring to FIG. 23, a conductor structure 231 is shown having a solidconduit portion 233 which supports individually insulated wires 17,although bare wires could also be supported. The use of individuallyinsulated wires will assist in terminating the individual conductors ata terminal box or connector, relieving the necessity to individuallyinsulated the conductors near their terminal portions. In addition, thesolid conduit portion is shaped as an arc extending between the end of ahorizontal surface at the front side and the end of a vertical surfaceat the back side.

Conductor structure 231 has a curved flange portion 235, when viewedfrom the transverse direction and curving underneath the conduit portion233. The curved flange portion 235 has a single rectangular shaped rib237 which extends generally perpendicularly with respect to the sectionof the curved flange portion 235 from which it extends. The formedcurvature of the curved flange portion 235 assists in helping aninstaller to have the flange portion 235 consistently bend in onedirection. Again, the opposing notches 21 and 23 are present creatingthe reduced area cross section 29 previously seen.

Referring to FIG. 24, a conductor structure 241 is shown having a curvedflange portion 243, when view from the transverse direction and curvingunderneath the conduit portion 233. The curved flange portion 243 has apair of rectangular shaped ribs 245 which extend generallyperpendicularly with respect to the section of the curved flange portion243 from which it extends.

Referring to FIG. 25, a conductor structure 251 is shown having a curvedflange portion 253, when viewed from the transverse direction andcurving away from a position underneath the conduit portion 233. Thecurved flange portion 253 has a single rectangular shaped rib 255 whichextends generally perpendicularly with respect to the section of thecurved flange portion 253 from which it extends.

Referring to FIG. 26, a conductor structure 261 is shown having a curvedflange portion 263, when view from the transverse direction and curvingunderneath the conduit portion 233. The curved flange portion 263 has apair of rectangular shaped ribs 265 which extend generallyperpendicularly with respect to the section of the curved flange portion263 from which it extends.

Referring to FIG. 27, a conductor structure 271 is shown having a splittailed flange portion including a vertical tail portion 223 and a curvedtail portion 225, when view from the transverse direction. The curvedtail portion 225 curves toward the front side of and in a directionunderneath a conduit portion 227 which is a hollow conduit having anexternal shape the same as conduit portion 233, but also having aninternal space 228 for carrying the wires 17. The vertical tail portion223 has a single rectangular shaped rib 229 which extends generallyperpendicularly with respect to the section of the vertical tail portion223 from which it extends. The split nature of the flange, including thecurved tail portion 225 and vertical tail portion 223 assists in helpingan installer to accommodate relatively large flange spaces.

Referring to FIG. 28,, an end view of an open conductor structure 281illustrates an open conduit portion 283 supporting several wires 17. Theconduit space 19 opens at a lateral opening 285. This enables the userto add or remove the wires 17 as necessary, especially laterally,without having to insert the wires is in the end of the open conduitportion 283. The lateral opening 285 enables the structure 281 to bepurchased as a stand-alone structure within which the user can addwiring to his needs, including coax, telephone wires, and the like. Inaddition, the user can buy the structure 281 to accommodate existingwiring to cover and better support such wiring.

Conductor structure 281 is shown having a straight flange portion 287,when viewed from the transverse direction extends straight down andgenerally parallel to the rear side of the conduit portion 283. Thestraight flange portion 287 has a single rectangular shaped rib 289which extends generally perpendicularly with respect to the section ofthe straight flange portion 287 from which it extends. Referring to FIG.29, a further embodiment is shown as an open conductor structure 291 andhas an open conduit portion 283, again supporting several wires 17. Theconduit space 19 opens at a lateral opening 285. Conductor structure 281is shown having a straight flange portion 297, and having a pair ofrectangular shaped ribs 299 which extends generally perpendicularly withrespect to the section of the straight flange portion 297 from which itextends.

Referring to FIG. 30, an end view of a further embodiment of a conductorstructure is shown as conductor structure 301 having an enclosed conduitportion 303 supporting several wires 17. A small linear portion 305 ofthe conduit portion 303 tangentially extends away from the conduitportion 303 and provides support for a straight flange portion 307. Thestraight flange portion 307 has a single rectangular shaped rib 309.

Referring to FIG. 31, an end view of a further embodiment of a conductorstructure is shown as conductor structure 311 having an enclosed conduitportion 313 supporting several wires 17. A small linear portion 305 ofthe conduit portion 313 is also present, and a straight flange portion335 has a single rectangular shaped rib 309.

Referring to FIG. 32 a view is shown the embodiment of FIG. 30 where therib 309 engages notch 31 along the bottom of base molding 33 attached toa wall 35, similar to that shown in FIG. 3.

Referring to FIG. 33, an irregularly shaped conductor structure 341 hasa solid conduit portion 343 which may carry a series of spaced apartconductors 345. The external surface of the solid conduit portion 343may be made of a variety of shapes to cooperate with a variety of basemolding 33 and wall 35 styles. A straight, downwardly extending flangeportion 347 has a single rectangular shaped rib 349. The notches 21 and23 are also present.

Referring to FIG. 34, a rectangularly shaped conductor structure 351 hasa solid conduit portion 353 which may carry a series of spaced apartwires 17. A straight, downwardly extending flange portion 355 has asingle rectangular shaped rib 357. The notches 21 and 23 are alsopresent.

Referring to FIG. 35, a closed triangularly shaped conductor structure361 has conduit portion 13 which may carry a series of wires 17. Theoverall shape of the conduit portion is defined by a horizontal bottomside 362, a vertical back side 363 and a sloping hypotenuse, or frontside 364. A flange portion 365 extends down and away from the junctionof the bottom side 362 and the back side 363 at a 45° angle with respectto each of the sides 362 and 363.

In a conductor structure of the class of conductor structure 361, theflange portion 365 will generally extend away from the conduit portion13 at an angle equilateral from the meeting point of the two sides, inthis case 362 and 363. One formula which helps to define this is tostate that the angle of the flange portion 365 with respect to both ofthe sides 362 and 363 will be 180° minus half of the angle with whichthe sides 362 and 363 meet. For example, where the sides 362 and 363meet at a 90° angle, the angle of the flange portion 365 with respect toeither of the walls 362 or 363 will be 180°-(90°/2)=135°. Likewise for aconduit portion having an equilateral triangular shape, the two sideswill meet at a 60° angle, and the angle with respect to either of theadjacent walls will be 180°-(60°/2)=150°. Having the flange portion,such as 365 bisect the meeting angles of the adjacent walls providesmaximum utility and enables the flange portion 365 to be bent in eitherdirection which is most advantageous depending upon the particulars ofthe installation desired. This overcomes any problems associated withthe reversibility required with left or right handed applications.

Notches 21 and 23 are present, although they are likewise turned 45°,but keep their orientation with respect to the length of the flangeportion 365. This angled orientation of the flange portion 365 enablesthe conduit structure 361 to be easily attached into flange spaces whichare vertical, horizontal, and in between. Further, it enables theconduit structure 361 to be used in two configurations most easilyillustrated using the triangular shape of FIG. 36, which is triangularfor illustrative purposes. For example, where side 362 is twice as shortas side 363, the conduit structure 361 can be flipped to more evenlymatch the available space.

Referring to FIG. 36, a closed arc segment shaped conductor structure371 has conduit portion 227 as was shown in FIG. 27, and may carry aseries of wires 17. The overall shape of the conduit portion 227 isdefined by a horizontal bottom side 372, a vertical back side 373 and anarc side 374 arcing between the ends of the bottom side 372 and the backside 373. A flange portion 375 extends down and away from the junctionof the bottom side 372 and the back side 373 at a 45° angle with respectto each of the sides 372 and 373.

Referring to FIG. 37, an irregularly shaped conductor structure 381 hasa more natural shape, but incorporates many of the structures previouslydescribed. It has a pair of conductors 383 suspended within a unitarybody 385. A flange portion 387 is continuous with the body 385. Anaturally formed notch 389 defines an engagement surface 391 whichfunctions similar to the top surface of one of the rectangular ribs 25previously described. A conduit structure 393 is shown in FIG. 38, buthaving a single groove 395 formed in one side of a flange portion 397 toproduce a reduced area of material 399 with which to enable a "tearingaway" of the conduit portion 385. Placement of notch 389 also helpsduring installation where the insulation material separating theconductors 383 is to be stripped away to expose the bare conductors 383.

Referring to FIG. 39, a perspective view of the conduit structure 393illustrates a variation wherein the flange portion 397 is formed as aseries of individual structures periodically occurring flange structureportions 401 along its length. The groove 395 is still present toproduce the reduced area of material 399 with which to enable a "tearingaway" of the conduit portion 385 from one or more of the periodicallyoccurring flange structure portions 401.

Referring to FIG. 40, a view of the conduit structure 393 from the rearside illustrates the periodicity of the flange structure portions 401and the notch 389 can be seen.

Referring to FIG. 41, a view similar to that of FIGS. 3 and 33illustrates the placement of the conduit structure 393.

Beginning with FIG. 42, a version of the conduit structures previouslyshown are further illustrated without the pair of opposing notches 21and 23. FIGS. 42, 43, 44, 45, show versions of conduit structures 431,441, 451, and 461 related to the conduit structures 11, 51, 61 and 71 ofFIGS. 2, 5, 6, & 7. The conduit structures 431, 441, 451, and 461 haveintegrally formed flange portions 433, 443, 453, and 463, which haverectangular ribs 435, 445, or triangular ribs 455, 465.

Likewise, FIGS. 46-73 illustrate conduit structures not having the pairof opposing notches 21 and 23, and FIGS. 46-73 correspond to FIGS. 8-36.FIGS. 46-73 illustrate conduit structures 471, 481, 491, 501, 511, 521,531, 541, 551, 561, 571, 581, 591, 601, 611, 621, 631, 641, 651, 661,671, 681, 691, 701, 711, 721, 731, and 741. The other numbering will becorrespondingly the same as FIGS. 8-36.

Referring to FIG. 74 a further embodiment is shown in looking into anend section as a conduit structure 751. Conduit structure 751. Conduitstructure 751 has a hollow conduit portion 755 (which could also besolid) in which a pair of conductors 757 are supported. This applicationis also useful for transport of electrical power and particularlyunderneath structures and withing flange spaces which are elongate. Oneparticular use is for support underneath carpeting and the like wherethe increased area of the elongate flange support 753 can help hold theconduit structure 751 in place. The pair of opposing notches 21 and 23producing a reduced cross sectional area 29 are present between theelongate flange support 753 and the conduit portion 755.

Referring to FIG. 75, a further embodiment is shown looking into an endsection as a conduit structure 761. Conduit structure 761 is the same aswas described for FIG. 75 except that the notches 21 and 23 are absent.

Referring to FIG. 76, an example of the conduit structure 751 shown inplace underneath carpet 39 and adjacent to a base molding 33. Inpractice, this configuration would also function well where electricalline needs to be placed along the edge of carpet in an open area. Itwould provide a finished look to the edge of the carpet while at thesame time extend power or other electrical signal along the carpetwithout the need for taping a bulky round cord to the floor 43.

Referring to FIG. 77, the conductor structure 81 of FIG. 8 is shownalong the bottom of base molding 33 attached to a wall 35. To the leftof the base molding 33 is a length of carpet tacking 37 which supportscarpeting 39. The length of carpet padding 41 lies to the left of thecarpet tacking 37, and both lie over the floor 42. Note that the conduitportion 13 lies at least partially above the carpet 39.

FIG. 78 illustrates the use of the conduit structure 361 shown in FIG.36 with a pair of conductors, and with the flange 365 extending awayfrom a wall 791, and used as power transmission wiring and extendingfrom a wall plug 793, then turning at the bottom and engaging a spaceunderneath base molding 33.

FIG. 79 illustrates a sectional view taken along line 79--79 of FIG. 78and illustrating a pair of conductors 795 and a twisting motion of theconduit structure 361 as the flange is brought around to engage the baseboard; FIGS. 78 and 79 illustrate that the conduit structure 361 canextend either to the left or to the right and that the conduit structure361 can twist about 160° in either direction and can thus extendhorizontally in either direction at the lower extent of its verticaltravel toward the floor.

FIG. 80 illustrates the use of the conduit structure 361 shown in FIG.36 with a pair of conductors 795 as was seen in FIG. 79, but with theflange 365 extending toward the wall 791 and not seen in FIG. 80. Inthis orientation, not as much twisting is required at the lower extentof the travel at the floor 43. The plug 793 is simply reversed and allother aspects of the FIG. 81 are similar to that as was shown in FIG.79.

FIG. 81 illustrates a sectional view taken along line 81--81 of FIG. 80and illustrating a pair of conductors 795 and a very slight twistingmotion of the conduit structure 361 to place it in position for thebeginning of the flange 365 which occurs along the length of the conduitstructure 361 near the floor 43. This illustrates the advantage of atear away flange 365.

As a final showing of the advantages of a tear away flange such asflange 365, the conduit structure 361 is shown in transition from ahorizontal extent with flange 365 engaged underneath the base molding33, to a transition to a vertical portion between a vertical molding 831and a wall 833. Beginning at the point of vertical transition, andcontinuing upward, the flange 365 is removed to enable the conduitstructure 361 to fit in a corner 835 between the vertical molding 831and wall 833. Although the corner 835 is presumably a 90° corner, andthe mostly equilateral cross sectional shape of the conduit structure361 is about 60°, and thus not a flush fit on any two adjacent sides,the removal of the flange 365 enables a sufficient fit so that unduetwisting of the conduit structure 361 is not necessary. If twisting didoccur, and with removal of the flange 365 over the vertical portion, thevertical extent for the majority of travel along the vertical molding831 would appear the same.

Referring to FIG. 83, a view along line 83--83 of FIG. 82 shows theextremely slight twisting which occurs as the terminal extent of theflange 365 is reached and the conduit structure 361 extends upward.

FIG. 84 illustrates a closed triangularly shaped conductor structure 851having conduit portion 13 which may carry a series of wires 17. Theoverall shape of the conduit portion is defined by a horizontal bottomside 852, a vertical back side 853 and a sloping hypotenuse, or frontside 854. A flange portion 855 carries a pair of triangular ribs 857 onthe side of flange portion 855 continuous with back side 853, and asingle triangularly shaped rib 859 on the side of the flange portion 855adjacent horizontal bottom side 852. In this configuration, theconductor structure 851 can "hook" to the inside as well as "click" intoand onto structures on both sides of the structure 851.

Referring to FIG. 85, a closed triangularly shaped conductor structure861 has conduit portion 13 which may carry a series of wires 17. Aflange portion 863 extends down and away at a 45° from the junction of apair of sides 865. The notches 21 and 23 are present. A pair of ribstructures 867 having rectangular shape oppositely extending from theflange 863 just below the notches 21 and 23, create a bi-laterallysymmetrical structure, except for the insulated conductors 17 which maybe carried within the conduit space 19. This design enables a singledesign of conductor structure, such as conductor structure 861 to beused both for right hand and left hand applications, as well asapplications which require switching from one sided engagement toengagement on the other side, such as where a wire turns toward areverse direction and the structure from which it depends is found to beon the other side.

FIG. 86 illustrates a solid conduit 871 having a solid conduit portion873 and having two pairs of rectangular ribs 875, each pair of ribsextending from a different side of a flange 877. This configurationallows both "inside" and "outside" engagement of structures.

While the present invention has been described in terms of a conduitstructure as well as structures for both anchoring, supporting, andsecuring electrical conductors, one skilled in the art will realize thatthe structure and techniques of the present invention can be applied tomany similar devices. The present invention may be applied in anysituation where electrical conductor support is needed.

Although the invention has been derived with reference to particularillustrative embodiments thereof, many changes and modifications of theinvention may become apparent to those skilled in the art withoutdeparting from the spirit and scope of the invention. Therefore,included within the patent warranted hereon are all such changes andmodifications as may reasonably and properly be included within thescope of this contribution to the art.

What is claimed:
 1. A flanged conduit for installation adjacent one of awall, a molding, a floor, a carpet, a rug and a baseboard andcomprising:a conduit portion having an elongate body having an outsidesurface and an inside surface spaced from said outside surface anddefining a cavity; and a flange portion support structure extending fromsaid conduit portion and having a first side for facing against at leastone of said wall, said molding said floor, said carpet, said rug andsaid baseboard, and a second side opposite said first side; an anchoringstructure portion extends from said first side of said flange portionsupport structure and having at least one surface having an anchoringstructure surface extending from said first side of said flange portionsupport structure, for engaging a surface irregularity of one of saidwall, said molding, said floor, said carpet, said rug and saidbaseboard.
 2. The flanged conduit of claim 1 wherein said flange portionsupport structure is curved.
 3. The flanged conduit of claim 1 whereinsaid anchoring structure portion has a rectangularly shaped crosssectional profile.
 4. The flanged conduit of claim 1 wherein saidanchoring structure portion has a triangularly shaped cross sectionalprofile.
 5. The flanged conduit of claim 1 wherein said anchoringstructure portion has a pair of spaced apart rectangularly shapedmembers viewed in cross sectional profile.
 6. The flanged conduit ofclaim 1 wherein said anchoring structure is a pair of spaced aparttriangularly shaped members viewed in cross sectional profile.
 7. Theflanged conduit of claim 1 wherein said anchoring structure is locatedbelow a minimum extent of said conduit portion.
 8. The flanged conduitof claim 1 wherein said flange portion support structure extends fromsaid conduit intermittently along a length of said conduit.
 9. Theflanged conduit of claim 1 wherein said conduit portion has arectangular cross sectional shape.
 10. The flanged conduit of claim 1wherein said conduit portion has a triangular arc shaped cross sectionalshape.
 11. The flanged conduit of claim 1 wherein said flange portionsupport structure is separated from said conduit portion via a reducedarea portion with respect to a cross sectional profile.
 12. The flangedconduit of claim 11 wherein said reduced area portion is formed by atleast one notch formed in at least one of said first and second sides ofsaid flange portion support structure, said notch having a notch shapewith respect to said cross sectional profile, said reduced area portionto facilitate a selective tearing away of said flange portion supportstructure along selected lengths of said flanged conduit.
 13. Theflanged conduit of claim 1 wherein said cavity of said conduit portionhas at least one lateral opening to enable side loading of conductorsinto said cavity.
 14. The flanged conduit of claim 1 wherein saidconduit portion has a circular cross sectional shape, and wherein saidflange portion support structure extends tangentially from said conduitportion.
 15. The flanged conduit of claim 1 wherein said conduit portionhas a triangular cross sectional shape, and having first, second andthird sides from a cross sectional view.
 16. The flanged conduit ofclaim 1 wherein said first and second sides meet at a first angle andwherein said flange portion support structure extends tangentially fromsaid conduit portion at an angle of 180° minus half of said first angle,from both said first and second sides.
 17. The flanged conduit of claim1 wherein said anchoring structure portion extending from both saidfirst and said second sides of said flange portion.
 18. A flangedconduit for installation between any two of a wall, a molding, a floor,and a baseboard and comprising:a conduit portion having an elongate bodyhaving an outside surface and carrying at least one conductor; and aflange portion support structure extending from said conduit portion andhaving a first side for facing against at least one of said wall, saidmolding said floor and said baseboard, and a second side opposite saidfirst side; an anchoring structure portion extending from at least oneof said conduit portion and said first side of said flange portionsupport structure, said anchoring structure portion having at least onesurface having an anchoring structure surface for engaging a surfaceirregularity of one of said wall, said molding, floor and saidbaseboard.
 19. The flanged conduit of claim 18 wherein said flangeportion support structure is separated from said conduit portion via areduced area portion with respect to a cross sectional profile.
 20. Theflanged conduit of claim 18 wherein said anchoring portion structure islocated above a minimum extent of said conduit portion.